CN109330587A - A kind of tracing system and method inducing the social physiogeny of human body - Google Patents

Abstract

This application involves the tracer technique fields that the social functional system of human body occurs, more particularly to a kind of trace information system for inducing the social physiogeny of human body, system includes: data obtaining module, acquisition module, signal processing module, information analysis module, data disaply moudle, memory module and power module, the second aspect of the application provides a kind of method for inducing the social physiogeny of human body, the trace labelling shown for executing above system, this method is to record front and back expression by giving different stimulations to different infants, movement, the variation of sound and brain wave, pass through the comparative analysis to variation, it finds out infant and new expression occurs, the time point of behavior and sound, the period of human body society sexual performance generation is judged with this, method therefor and system operatio are simple, feasibility is strong, obtained experiment As a result many fields be can be applied to, preferably developed for human body itself.

Description

Tracing system and method for inducing human social function development

Technical Field

The application relates to the technical field of human social functions, in particular to a tracing information system and a tracing information method for inducing human social functions to develop.

Background

Human being is the leading world today, a very important scientific fact, because of its extraordinary ability, called "hommization", and its mechanism of generation of nerve cells called "mirror neurons", which is independent of DNA transmission, but relies on the human society's own social storage system to guide the development and differentiation of neurons in human brain cells, and to force our primitive progenitors to move away from apes. The function of the brain cell simulator reflects the influence of the behaviors of other people on the construction, development and differentiation of brain cells of children, so that people learn to imitate the brain cells from simple to more complicated, and a series of human social functions such as language, music, art, using tools and the like are gradually developed. This is one of the greatest areas of human progress.

However, natural science and social science cannot define such family specificity clearly, and the social system of the mirror image neurons widely exists in a plurality of brain areas, participates in activities such as understanding, imitation, sympathy and social cognition of actions, and is the basis for imitating actions and learning ability of other people, so that the mirror image mechanism becomes a bridge for multi-level communication and connection between people. Similar to neural circuits that store memory in the brain, mirror neurons also appear to "program templates" for specific behaviors. With this property of mirror neurons, basic actions can be made without thinking, and when seeing these actions, they can be understood quickly without complex reasoning. As early as the 90 s of the 20 th century, when the single neuron discharge activity of the motor anterior cortex of a monkey is studied, it is found that the action of a worker in the visual field of the monkey can also trigger specific neuron activity. Further studies thereafter have shown that animal instinctive behavior can be well explained using the conditioned reflex theory.

However, the human body seems to be an independent physiological child because it is not enough to explain the social function of the human body, and so far, physiological studies have not shown any reliable evidence that society affects the development of the human body. So far, how the human social function appears and what kind of induction is needed for appearing are not found.

Disclosure of Invention

The application provides a tracing information system and a tracing information method for inducing human social function development, and aims to discover an induced information mode and test a specific time point of occurrence of human social function by an induction experiment method.

A first aspect of the present application provides a tracer information system for inducing development of human social functions, the system comprising: the device comprises an information acquisition module, an acquisition module, a signal processing module, an information analysis module, a data display module, a storage module and a power supply module; wherein,

the information acquisition module comprises a plurality of potential detection electrodes with input ends arranged on different cerebral cortex, a voltage amplification circuit is correspondingly arranged on each potential detection electrode, and the input end of each potential detection electrode is connected with the input end of the voltage amplification circuit;

one end of the signal processing module is connected with the input end of the amplifying circuit, and the other end of the signal processing module is connected with the information analysis module;

the acquisition module is connected with the information analysis module;

one end of the data display module is connected with the information analysis module, and the other end of the data display module is connected with the storage module;

the power module is respectively connected with the information acquisition module, the signal processing module, the information analysis module and the data display module.

Optionally, the information acquiring module acquires sporadic brain waves.

Optionally, the sporadic brain waves are information combinations formed by multiple paths of information.

Optionally, the information combination is a source signal combination which applies stimulation to the child, and the source signal combination can induce generation of a diad neuron pathway.

Alternatively, the stimulus comprises an acoustic, optical source signal or mirror to create a new experience in the sense of the child.

Optionally, the information collected by the collection module includes a picture, a video, a sound clip, and a combination of the three.

Optionally, the signal processing module performs band-pass filtering on the sporadic brain waves by using an FIR filter to obtain a relatively obvious relevant desynchronized ERD physiological characteristic data segment.

A second aspect of the present application provides a method of inducing development of human social functions, the method comprising:

s1, randomly selecting five children of different ages with intelligence of 0-6 years old and normal body development, and independently placing the five children in five houses;

s2, giving stimulation to five children in a light source or sound source emitter stimulation mode, a mirror viewing mode or a combination mode of the light source or the sound source emitter stimulation mode and the mirror viewing mode, and collecting pictures, videos and sounds of the children before and after stimulation by the collecting module;

s3, capturing brain wave tracing signals of the child before and after stimulation by using the information acquisition module;

s4, performing band-pass filtering on the brain waves by using the signal processing module, transmitting the filtered brain waves to the information analysis module, and performing feature extraction on the brain waves on multiple scales;

s5, extracting and analyzing the differential characteristics of the pictures, videos and sounds of the children before and after stimulation by using the information analysis module;

s6, displaying the conclusion obtained by the information analysis module by the data display module and storing the conclusion in the storage module;

and S7, repeating the steps S2-S6 until the child shows a new behavior, expression or sound, and recording the time point when the new behavior, expression or sound appears.

Optionally, the new behaviors, expressions or sounds are behaviors, expressions and sounds that never appeared by the child before being stimulated.

The technical scheme provided by the application comprises the following beneficial technical effects:

a first aspect of the present application provides a trace information system for inducing development of human social functions, comprising: the second aspect of the application provides a method for inducing human social function development, which comprises the following steps: s1, randomly selecting five children of different ages with intelligence of 0-6 years old and normal body development, and independently placing the five children in five houses; s2, giving stimulation to five children in a light source or sound source emitter stimulation mode, a mirror viewing mode or a combination mode of the light source or the sound source emitter stimulation mode and the mirror viewing mode, and collecting pictures, videos and sounds of the children before and after stimulation by a collection module; s3, capturing brain wave tracing signals of the child before and after stimulation by using an information acquisition module; s4, performing band-pass filtering on the brain waves by using the signal processing module, transmitting the filtered brain waves to the information analysis module, and performing feature extraction on the brain waves on multiple scales; s5, extracting and analyzing the difference characteristics of the pictures, videos and sounds of the children before and after stimulation by using an information analysis module; s6, displaying the conclusion obtained by the information analysis module by the data display module and storing the conclusion in the storage module; and S7, repeating the steps S2-S6 until the child shows new behaviors, expressions or sounds, and recording the time points of the new behaviors, expressions or sounds. The method and the system are simple to operate and high in feasibility, and the obtained experimental result can be applied to a plurality of fields and can be used for better development of the human body.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without any creative effort.

Fig. 1 is a schematic structural diagram of a tracer information system for inducing human social function development according to an embodiment of the present disclosure.

Fig. 2 is a flowchart of steps of a method for inducing development of social functions of a human body according to an embodiment of the present application.

Fig. 3 is a circuit diagram of a voltage analysis circuit according to an embodiment of the present disclosure.

Description of reference numerals:

1. an information acquisition module; 2. an acquisition module; 3. a signal processing module; 4. an information analysis module; 5. a data display module; 6. a storage module; 7. and a power supply module.

Detailed Description

As shown in fig. 1, for the first aspect of the present application, there is provided a tracer information system for inducing development of human social functions, comprising: the system comprises an information acquisition module 1, an acquisition module 2, a signal processing module 3, an information analysis module 4, a data display module 5, a storage module 6 and a power supply module 7; wherein,

the information acquisition module 1 comprises a plurality of potential detection electrodes with input ends arranged on different cerebral cortex, a voltage amplification circuit is correspondingly arranged on each potential detection electrode, and the input end of each potential detection electrode is connected with the input end of the voltage amplification circuit.

The potential detection electrode is made of materials with high conductivity, good stability and biocompatibility and used for detecting electroencephalogram signals, for example, silver materials or platinum-iridium alloys are additionally insulated and connected with leads. In use, the potential detection electrodes are typically placed in the vicinity of where brain noise is generated, for detecting the brain electrical signals around neurons in the vicinity of where the brain noise occurs. The number of potential detection electrodes is not particularly limited and may be selected according to the test conditions.

The voltage amplifying circuit can adopt a commercially available amplifying circuit, such as a single-lead or multi-lead physiological amplifier of Beijing New Tuo company, and can amplify an electric signal of millivolts or microvolts by tens of thousands or hundreds of thousands of times. The input end of the voltage amplifying circuit is connected with the potential detection electrode, and the output end of the voltage amplifying circuit is connected with the input end of the analysis and control module. The potential detection electrodes transmit the detected brain wave signals to a voltage amplification circuit, and the voltage amplification circuit performs voltage amplification processing on the brain wave signals detected by the potential detection electrodes so that the signal processing module 3 further processes the brain wave signals.

Optionally, the information acquisition module acquires sporadic brain waves.

Optionally, the sporadic brain waves are information combinations formed by multiple paths of information, the information combinations have simultaneous probability correlation, signal components of the information combinations have simultaneous correlation and an induced signal exists, and the induced signal and the input information combinations have secondary high-probability correlation.

Optionally, the information combination is a source signal combination which applies stimulation to the child, the source signal combination may generate a diad neuron pathway, and a secondary brain wave may be induced in the process of generating the diad neuron pathway, and the brain wave is a tracer signal for generating the diad neuron pathway.

The sporadic brain waves are induced by a simultaneous information structure of information combinations related to multiple information channels, the multiple information channels correspond to different cerebral cortex potential detection electrodes, the simultaneous correlation between the brain waves and the information combinations (such as light and sound information combinations) formed by the multiple information has correlation, the correlation is represented as probabilistic correlation rather than decisive correlation, and the information is called brain noise information.

One end of the signal processing module 3 is connected with the input end of the amplifying circuit, and the other end is connected with the information analysis module 4.

The brain wave signals acquired by the information acquisition module 1 are processed in order to utilize them. For example, when the electrical signal is weak, it needs to be amplified; when noise is mixed, the noise needs to be filtered; when the frequency is not suitable for transmission, modulation and demodulation are needed; when the signal is distorted, the signal needs to be balanced; when the signal types are many, identification and the like are required. And extracting characteristic signals in the event change process, and performing interference removal, analysis, synthesis, transformation, operation and other processing to obtain information reflecting the nature of event change or interest of a processor. Analog signal processing and digital signal processing are divided. The purpose of signal processing is to attenuate unwanted content in the signal; filtering out mixed noise and interference; or to transform the signal into a form that is easy to process, transmit, analyze, and recognize for subsequent further processing.

Optionally, the signal processing module 3 performs band-pass filtering on the acquired brain waves by using an FIR filter to acquire a relatively obvious relevant desynchronized ERD physiological characteristic data segment.

For example, as shown in fig. 3, the information analysis module 4 may be implemented by using an existing electronic component, or may be implemented by using a microcomputer circuit. When the information analysis module 4 is implemented by adopting the existing electronic component matching, the information analysis module is composed of an integrated schmitt trigger, a not gate 1, a not gate 2, a capacitor C, a voltage control switch, a resistor and an integrated circuit timer (NE555), wherein the voltage control switch is composed of switches K1, K2 and K3 and corresponding relays M1, M2 and M3. The integrated Schmitt trigger can adopt CD4093, the function of the integrated Schmitt trigger is to realize voltage comparison, when the voltage is in a certain range, low voltage is output, otherwise, high voltage is output, the inverter 1 realizes voltage inversion, the capacitor C, the resistor R and the integrated circuit timer (NE555) form a monostable circuit to realize timing, the monostable circuit needs negative pulse triggering, and the inverter 2 realizes voltage V0 inversion. When the information analysis module 4 is realized by adopting a microcomputer circuit, the work of voltage analysis is completed by operating specific software by using a singlechip.

The information analysis module carries out feature recognition on the brain waves according to five features, wherein the five features are as follows: (a) the information input by different channels forms a combination; (b) exciting a cluster of labeled brain waves of the cerebral cortex according to the blocks related to the simultaneity of the elements in the combination; (c) the marked brain waves are related to the information in the combination with high probability in the simultaneity relation; (d) the marked brain waves are related to a simultaneity correlation mechanism with high probability, but the correlation does not have certainty but is sporadic; (e) the sporadic association exists only for a certain period of time, and after a certain period of time, the association disappears. The information is input into an information analysis module (4) for feature recognition through a signal processing module (3).

The acquisition module 2 is connected with the information analysis module 4. When a human body social function test is carried out, on one hand, the change condition of brain waves of each child in the experimental process is obtained through the information obtaining module 1, on the other hand, pictures and videos of facial expressions, body actions and language changes of the child in the experimental process are recorded through a camera, a video recorder, a mobile phone, a computer or other equipment capable of taking pictures and recording videos, the pictures and the videos are used for later comparison, and the time point of the infant for generating the human body social function is analyzed through the information analyzing module (4). The information analysis module (4) can also analyze the secondary information of the causal association information of the pictures and videos of the facial expressions, the body movements and the language changes of the children and the brain wave tracing signals collected by the information acquisition module (1).

One end of the data display module 5 is connected with the information analysis module 4, and the other end is connected with the storage module 6. The data display module 5 is used for displaying the analysis result obtained by the information analysis module 4 on a display screen for a researcher to view and perform further analysis, and the data display module 5 comprises a display and a power supply as necessary elements besides a series of functional elements.

The storage module 6 records data in a certain format on a storage medium inside or outside the computer, and stores all data collected, acquired, analyzed and processed in the system in a certain format inside the computer for later retrieval, analysis or viewing.

The power module 7 is respectively connected with the information acquisition module 1, the acquisition module 2, the signal processing module 3, the information analysis module 4 and the data display module 5. The power supply module 7 includes a power supply circuit for supplying operating power to each unit circuit.

Alternatively, the stimulus may comprise an acoustic, optical signal or mirror to create a new sensory experience for the infant. Under normal environment, brain noise signals of infants are almost the same, in order to research when the infants acquire the human social function, the infants need to be given different stimulations in a peaceful environment to promote certain changes of expressions, actions and brain activities of the infants, and then according to the changes, the time point when the human social function appears at the earliest can be analyzed. The stimulation that this application was selected for use is that each position of infant's body is shone to the light source, and the sound source amazing infant's sense of hearing or look into the mirror for infant let infant make infant produce new experience on the sense organ, observe every infant's change, record at any time to acquire the brain wave signal of this experimentation, both combine, can be more accurate obtain experimental result.

A second aspect of the present application provides a method of inducing development of human social functions,

example 1

S1, placing the child in the house independently;

s2, irradiating the face of the first child by using a light source emitter, leaving light spots on the cheek, forehead, chin or nose of the first child, acquiring pictures and videos of facial expressions, limb movements and sound changes of the first child before and after irradiation by using an acquisition module 2, and capturing brain wave tracing signals of the first child before and after irradiation by using an acquisition module 1;

s3, performing band-pass filtering on the brain waves by using the signal processing module 3, transmitting the filtered brain waves to the information analysis module 4, and performing feature extraction on the brain waves on multiple scales;

s4, extracting and analyzing the facial expression, limb movement and sound differentiation characteristics of the child before and after stimulation by using the information analysis module 4;

s5, the conclusion obtained by the information analysis module 4 is displayed by the data display module 5 and stored in the storage module 6;

and S6, repeating the steps until the child presents a new behavior, expression or sound, and recording the time point of the new behavior, expression or sound.

Example 2

S1, placing the second child in the house;

s2, using a light source emitter to irradiate the limbs of a second child, leaving light spots on the arms and the legs of the second child, using a collection module 2 to collect pictures and videos of facial expressions, limb movements and sound changes of the second child before and after irradiation, and using an acquisition module 1 to capture brain wave tracing signals of the second child before and after irradiation;

s3, performing band-pass filtering on the brain waves by using the signal processing module 3, transmitting the filtered brain waves to the information analysis module 4, and performing feature extraction on the brain waves on multiple scales;

s4, extracting and analyzing the facial expression, limb movement and sound differentiation characteristics of the child before and after stimulation by using the information analysis module 4;

s5, the conclusion obtained by the information analysis module 4 is displayed by the data display module 5 and stored in the storage module 6;

and S6, repeating the steps until the child presents a new behavior, expression or sound, and recording the time point of the new behavior, expression or sound.

Example 3

S1, placing the children III in the house independently;

s2, stimulating the auditory sense of the child III by using a sound source, playing various sounds for the child, collecting pictures and videos of facial expressions, limb movements and sound changes of the child before and after the sound is played by using a collection module 2, and capturing brain wave tracing signals of the child before and after the sound is played by using an acquisition module 1;

s3, performing band-pass filtering on the brain waves by using the signal processing module 3, transmitting the filtered brain waves to the information analysis module 4, and performing feature extraction on the brain waves on multiple scales;

s4, extracting and analyzing the facial expression, limb movement and sound differentiation characteristics of the child before and after stimulation by using the information analysis module 4;

s5, the conclusion obtained by the information analysis module 4 is displayed by the data display module 5 and stored in the storage module 6;

and S6, repeating the steps until the child presents a new behavior, expression or sound, and recording the time point of the new behavior, expression or sound.

Example 4

S1, placing the child IV in a house;

s2, placing a mirror opposite to the child IV to enable the child IV to see pictures in the mirror, collecting pictures and videos of facial expressions and limb movement changes of the child before and after the moment by using a collection module 2, and capturing brain wave tracing signals of the child before and after irradiation by using an acquisition module 1;

s3, performing band-pass filtering on the brain waves by using the signal processing module 3, transmitting the filtered brain waves to the information analysis module 4, and performing feature extraction on the brain waves on multiple scales;

s4, extracting and analyzing the facial expression, limb movement and sound differentiation characteristics of the child before and after stimulation by using the information analysis module 4;

s5, the conclusion obtained by the information analysis module 4 is displayed by the data display module 5 and stored in the storage module 6;

and S6, repeating the steps until the child presents a new behavior, expression or sound, and recording the time point of the new behavior, expression or sound.

Example 5

S1, putting the five children in the house independently;

s2, illuminating the face, four limbs and the body of the child five by using a light source emitter, simultaneously placing a mirror on the opposite side of the child five to enable the child five to see pictures in the mirror, acquiring pictures and videos of facial expressions and limb movement changes of the child before and after stimulation by using an acquisition module 2, and capturing brain wave tracing signals of the child before and after illumination by using an acquisition module 1;

s3, performing band-pass filtering on the brain waves by using the signal processing module 3, transmitting the filtered brain waves to the information analysis module 4, and performing feature extraction on the brain waves on multiple scales;

s4, extracting and analyzing the facial expression, limb movement and sound differentiation characteristics of the child before and after stimulation by using the information analysis module 4;

s5, the conclusion obtained by the information analysis module 4 is displayed by the data display module 5 and stored in the storage module 6;

and S6, repeating the steps until the child presents a new behavior, expression or sound, and recording the time point of the new behavior, expression or sound.

Alternatively, the new behavior, expression or sound is a behavior, expression or sound that never appeared before being stimulated. Although the birth state of the human child is weaker than that of the young human animal, the human child still has some signs that the human child has a development tendency exceeding that of the general animal, such as two general physiological requirements of crying and laughing, and the instinct of emotional traits preset by external subjects can not obviously or not develop on the general animal, and the two instincts are critical when indicating adults to nurture and care according to the physiological requirements of the adult, so that a group of information combinations with simultaneous matching is formed by applying appropriate stimulation to the external attention consciousness and the internal attention consciousness and a memory bank related to the child in time, thereby promoting the development of the diad psychological mode of the child, which is critical for the human body to generate social functions, so that the infant generates an expression or action which has never been generated in the past to the infant after being stimulated, the method can obtain the process and time point of the generation of the human social function, further help us to better know the development process of the infants, assist us to give the infants better nurture and care, and meanwhile, the social function can be applied to education, can give the learning of related knowledge according to the characteristics of the stage development of the children, and can better help to master the knowledge.

A first aspect of the present application provides a trace information system for inducing development of human social functions, comprising: the second aspect of the application provides a method for inducing human social function development, which comprises the following steps: s1, randomly selecting five children of different ages with intelligence of 0-6 years old and normal body development, and independently placing the five children in five houses; s2, giving stimulation to five children in a light source or sound source emitter stimulation mode, a mirror viewing mode or a combination mode of the light source or the sound source emitter stimulation mode and the mirror viewing mode, and collecting pictures, videos and sounds of the children before and after stimulation by a collection module; s3, capturing brain wave tracing signals of the child before and after stimulation by using an information acquisition module; s4, performing band-pass filtering on the brain waves by using the signal processing module, transmitting the filtered brain waves to the information analysis module, and performing feature extraction on the brain waves on multiple scales; s5, extracting and analyzing the difference characteristics of the pictures, videos and sounds of the children before and after stimulation by using an information analysis module; s6, displaying the conclusion obtained by the information analysis module by the data display module and storing the conclusion in the storage module; and S7, repeating the steps S2-S6 until the child shows new behaviors, expressions or sounds, and recording the time points of the new behaviors, expressions or sounds. The method and the system are simple to operate and high in feasibility, and the obtained experimental result can be applied to a plurality of fields and can be used for better development of the human body.

It is to be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above description is merely exemplary of the present application and is presented to enable those skilled in the art to understand and practice the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

It will be understood that the present application is not limited to what has been described above and shown in the accompanying drawings, and that various modifications and changes can be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (9)

1. A tracer information system for inducing development of social functions in a human body, the system comprising: the system comprises an information acquisition module (1), an acquisition module (2), a signal processing module (3), an information analysis module (4), a data display module (5), a storage module (6) and a power supply module (7); wherein,

the information acquisition module (1) comprises a plurality of potential detection electrodes with input ends arranged on different cerebral cortex, a voltage amplification circuit is correspondingly arranged on each potential detection electrode, and the input end of each potential detection electrode is connected with the input end of the voltage amplification circuit;

one end of the signal processing module (3) is connected with the input end of the amplifying circuit, and the other end of the signal processing module is connected with the information analysis module (4);

the acquisition module (2) is connected with the information analysis module (4);

one end of the data display module (5) is connected with the information analysis module (4), and the other end of the data display module is connected with the storage module (6);

the power module (7) is respectively connected with the information acquisition module (1), the acquisition module (2), the signal processing module (3), the information analysis module (4) and the data display module (5).

2. The system according to claim 1, characterized in that the information acquisition module (1) acquires sporadic brain waves.

3. The system according to claim 2, wherein the sporadic brain waves are a combination of information consisting of multiple channels of information.

4. The system of claim 3, wherein the combination of information is a combination of source signals that have been stimulated in the child to induce generation of diad neuronal pathways.

5. The system of claim 4, wherein the stimulus comprises an acoustic, optical source signal, or mirror to create a new experience in the child's senses.

6. The system according to claim 1, characterized in that the information collected by the collecting module (2) comprises pictures, videos, sound clips and combinations of the three.

7. The system according to claim 1, wherein the signal processing module (3) performs band-pass filtering on the sporadic brain waves by using an FIR filter to obtain the more obvious relevant desynchronized ERD physiological characteristic data segment.

8. A method of inducing development of human social functions for performing the system of claims 1-7, the method comprising:

s1, randomly selecting five children of different ages with intelligence of 0-6 years old and normal body development, and independently placing the five children in five houses;

s2, giving stimulation to five children in a light source or sound source emitter stimulation mode, a mirror viewing mode or a combination mode of the light source or the sound source emitter stimulation mode and the mirror viewing mode, and collecting pictures, videos and sounds of the children before and after stimulation by the collecting module (2);

s3, capturing brain wave tracing signals of the children before and after stimulation by using the information acquisition module (1);

s4, performing band-pass filtering on the brain waves by using the signal processing module (3), transmitting the filtered brain waves to the information analysis module (4), and performing feature extraction on the brain waves on multiple scales;

s5, the information analysis module (4) is used for extracting and analyzing the differential characteristics of pictures, videos and sounds of the children before and after stimulation;

s6, the conclusion obtained by the information analysis module (4) is displayed by the data display module (5) and stored in the storage module (6);

and S7, repeating the steps S2-S6 until the child shows a new behavior, expression or sound, and recording the time point when the new behavior, expression or sound appears.

9. The method of claim 8, wherein the new behaviors, expressions, or sounds are behaviors, expressions, or sounds that never occurred to the child before being stimulated.